The hidden network that makes the internet possible - Sajan Saini

TED-Ed
22 Apr 201905:20

Summary

TLDRIn 2012, Japanese and Danish researchers broke a world record by transmitting 1 petabit of data over a 50-kilometer fiber optic cable in just one second. Fiber optics revolutionized communication by replacing inefficient copper wires with glass fibers, carrying light instead of electrical signals. As the internet expands, new technologies like integrated photonics are improving energy efficiency and bandwidth. These innovations help meet the rising demand for data, transforming cloud computing and wireless communication, while enabling faster, more efficient global connectivity through fiber optic networks.

Takeaways

  • 😀 In 2012, a team of researchers set a world record by transmitting 1 petabit of data over 50 kilometers of fiber optic cable in just one second.
  • 😀 Fiber optics revolutionized communication by replacing inefficient copper wires with glass fibers that carry light pulses instead of electrical signals.
  • 😀 The principle of total internal reflection allows light to travel through fiber optics by bouncing along inside the glass, ensuring minimal data degradation over long distances.
  • 😀 Fiber optic cables, which are thinner than human hair, can carry multiple wavelengths of light, enabling vast data transmission capabilities.
  • 😀 Over a million kilometers of fiber optic cables are laid across ocean floors, connecting continents and forming the backbone of global internet infrastructure.
  • 😀 Data centers, which rely heavily on fiber optics, face challenges with energy waste and excessive heat due to power inefficiencies.
  • 😀 Wireless communication, particularly in mobile devices, is reaching its data transfer limits, creating demand for faster solutions.
  • 😀 Integrated photonics, using ultrathin silicon wires, is helping to solve bandwidth limitations by allowing optical signals to be converted efficiently within data centers.
  • 😀 Photonic chips enable the conversion of electrical signals to light, improving energy efficiency in data centers and allowing the use of fiber optics instead of traditional electrical cables.
  • 😀 Integrated photonics also offers solutions for wireless bandwidth problems, using terahertz frequencies that allow data to be transferred at much higher speeds over short-range distances.
  • 😀 The combination of fiber optics and integrated photonics is set to transform global communication networks, creating an expansive, high-speed, and energy-efficient virtual world.

Q & A

  • What world record was set in 2012 by a team of Japanese and Danish researchers?

    -In 2012, the researchers set a world record by transmitting 1 petabit of data—equivalent to 10,000 hours of high-definition video—over a 50-kilometer cable in just one second.

  • What is the key difference between copper wires and fiber optics for long-distance communication?

    -Copper wires were traditionally used for long-distance communication but were inefficient due to power loss and limitations in data transmission. Fiber optics, made from glass, offer a superior method of data transmission using light, allowing for faster and more efficient communication over long distances.

  • How do fiber optics transmit data using light?

    -Fiber optics transmit data using pulses of light rather than electricity. The light is guided through glass fibers by the phenomenon of total internal reflection, where light bounces within the glass, staying trapped and traveling over long distances without significant loss.

  • What is total internal reflection, and how does it work in fiber optics?

    -Total internal reflection is a phenomenon where light, traveling at a shallow angle within glass, bounces off the surface and stays trapped inside the fiber. This allows the light to travel long distances within the fiber without escaping.

  • What challenges can occur with fiber optic cables over long distances?

    -Fiber optic signals degrade very little over distance, but some power does scatter away. Additionally, fibers can only bend so sharply, or else light may leak out, which limits how tightly they can be coiled or routed.

  • How has fiber optics contributed to the development of the internet?

    -Fiber optics have revolutionized the internet by enabling high-speed data transmission across long distances. A vast network of undersea fiber optic cables connects continents, facilitating the growth of the internet into a global system with minimal data loss.

  • What are the two main problems associated with cloud computing and data centers?

    -The two main problems are heat waste and increasing bandwidth demand. Data centers, which house thousands of servers, waste a significant amount of energy as heat, and the demand for faster wireless connections continues to rise.

  • What role does integrated photonics play in addressing challenges in data centers and wireless connectivity?

    -Integrated photonics, using tiny silicon wires, allows for the conversion of electrical signals to optical signals, enabling more power-efficient fiber optic connections within data centers. This technology also helps overcome wireless bandwidth limitations by using terahertz frequencies for faster data transmission.

  • What are the limitations of terahertz frequencies in wireless communication, and how can fiber optics help overcome them?

    -Terahertz frequencies can carry data much faster than traditional gigahertz signals, but they have limited range due to absorption by moisture and obstructions like buildings. Fiber optics can relay these signals over longer distances, allowing for faster wireless connectivity in cities.

  • How has the use of light evolved in human history, according to the transcript?

    -Throughout history, light has provided sight and heat, helping humans explore and settle the physical world. Now, light is used to carry information along fiber optic cables, creating a global virtual network that powers the modern internet and wireless communications.

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Ähnliche Tags
Fiber OpticsPhotonicsData TransmissionTechnologyInnovationCloud ComputingWireless ConnectivityHigh-Speed InternetGlobal NetworksIntegrated Photonics
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